KR200366349Y1 - Spray type cooling nozzle for extruding machine - Google Patents

Abstract

The present invention is a screw hole is coupled to the nozzle body and the outlet body of the nozzle body integrally formed at a right angle with the inlet inlet and the outlet for discharging the coolant is introduced into the nozzle hole in the center to spray the coolant to the outside In the cooling nozzle of the cooling tank for cooling the molded product drawn out from the compression molding machine consisting of the formed nozzle cap, it is formed on the partition wall between the inlet and outlet of the nozzle body, in relation to the spraying direction of the combined nozzle body A through hole of a predetermined diameter formed eccentrically from an center of the partition wall; And a filter coupled between the discharge port and the inner end of the nozzle cap to prevent foreign substances contained in the cooling water introduced into the discharge port from being injected into the molded product through the nozzle hole. It further comprises a spray type cooling nozzle for an extruder to prevent the foreign matter flowing into the interior of the cooling nozzle is formed by filtering the certain amount by the partition wall, as well as to prevent it from being ejected into the molded product and stuck to the surface. Is to provide.

Description

Spray Type Cooling Nozzle for Extruder {SPRAY TYPE COOLING NOZZLE FOR EXTRUDING MACHINE}

The present invention relates to an extruder, and more particularly, in a spray type cooling tank for cooling a molded product from an extruder, in particular, the foreign matter contained in the coolant while preventing the nozzle hole of the cooling nozzle spraying the coolant from being blocked by foreign matter. The present invention relates to a spray type cooling nozzle for an extruder which is prevented from being sprayed into the molded product.

Generally, an extruder is a device for continuously molding a product having a specific cross section by compressing a molding material in a molten state and passing a die of a specific shape. The extruder is mainly used to produce various types of pipes or wire tubes. .

Such an extruder is a hopper for supplying a molten molding material such as a synthetic resin material or a synthetic rubber material as shown in FIG. 1 (1: Hopper), an extruder for extruding the molding material supplied through the hopper (2 ), A cooling tank 3 for cooling the molded product 6 drawn out from the compression molding machine, a drawer 4 for drawing the cooled molded product, and a cutter for cutting the drawn molded product to a predetermined length (5). )

In particular, the cooling tank (3) associated with the present invention is largely divided into a submerged cooling tank and spray cooling tank, the former is a method of cooling by passing the molded product into the water tank of a predetermined size stored in the cooling water, the latter is Figure 2 As shown in FIG. 2, a cooling method is performed by passing the molded product 6 into a compartment in which a plurality of cooling nozzles 10 for spraying cooling water are installed.

Accordingly, the submerged cooling tank is not practical because it requires a large storage space depending on the molded product, while the spray cooling tank not only requires a relatively small space but also its handling is relatively simple, and thus the spray cooling in recent years. Joe is being used more.

However, in the case of the spray cooling tank 3 as described above, in order to prevent deformation of the molded product 6, a plurality of cooling nozzles 10 are installed around the chamber through which the molded product passes. Although cooling should be made, in practice, when using a plurality of cooling nozzles installed, a problem occurs in that the nozzle hole at the front end is clogged or narrowed by foreign matter contained in the cooling water.

That is, as shown in FIG. 3, the conventional cooling nozzle 10 is formed between the inlet and the outlet in a state in which the inlet 12 through which the coolant is introduced and the outlet 13 for discharging the inlet coolant are integrally formed at right angles. The partition wall 14 is formed and screw-coupled to the tip of the nozzle body 11 and the discharge port 13 of the nozzle body having a through hole 15 having a predetermined diameter at the center of the partition wall to spray the cooling water to the outside. It consists of a nozzle cap through the nozzle hole 17 in the center.

However, when the through-hole 15 is formed in the center of the partition 14, the foreign matter contained in the coolant is discharged through the central through-hole 15, the nozzle hole formed smaller than the through-hole blocked or narrowed by the foreign matters Is generated.

In addition, the conventional cooling nozzle 10 has a problem that the foreign matter contained in the cooling water is directly injected into the molded product 6 together with the cooling water, the foreign matter contained in the cooling water is fixed to the surface of the molded product.

Therefore, these problems are greatly reduced the reliability of the product, such as deformation of the molded product occurs in the process of cooling the molded product, an urgent improvement is required.

The present invention has been made to solve the problems and drawbacks of the prior art, the main purpose of the cooling nozzles installed in the spray-type cooling tank of the extruder is not only to filter a certain amount of foreign matter introduced into the inside by the partition wall. Rather, it is an object of the present invention to provide a spray type cooling nozzle for an extruder which prevents it from being ejected into a molded product and sticking to its surface.

Further, by allowing the cooling water discharged to the discharge port through the through hole of the partition to circulate at a high speed within the discharge port, to prevent foreign matter accumulated in the filter due to the eddy phenomenon of the cooling water, and to smooth the cooling water through the filter It is an object of the present invention to provide a spray type cooling nozzle for an extruder in which ejection of water is performed.

1 is a schematic view showing the overall configuration of an extruder.

2 is a schematic view showing the cooling tank of FIG.

Figure 3 is a side cross-sectional view showing a conventional cooling nozzle.

Figure 4 is an exploded perspective view showing a spray type cooling nozzle for an extruder to which the present invention is applied.

5 is a longitudinal sectional view of FIG. 4;

Figure 6 is a side cross-sectional view showing a spray type cooling nozzle for an extruder to which the present invention is applied.

<Brief description of symbols for the main parts of the drawings>

1: Hopper 2: Extruder

3: cooling tank 4: drawing machine

5: cutting machine 6: molding products

100: cooling nozzle 110: nozzle body

112: inlet 114: outlet

116: partition 120: through hole

130: nozzle cap 132: nozzle hole

140: filter

The present invention for achieving the above object is screw-coupled to the nozzle body and the outlet end of the nozzle body is integrally formed in a right angle direction and the inlet and the outlet for discharging the cooling water is injected into the cooling water to the outside In the cooling nozzle of the cooling tank for cooling the molded product drawn out from the compression molding machine consisting of a nozzle cap formed with a nozzle hole in the center thereof,

A through hole of a predetermined diameter which is formed on a partition between the inlet and the outlet of the nozzle body and is eccentrically upwardly from the center of the partition in relation to the spraying direction of the combined nozzle body; And

A filter coupled between the discharge port and the inner end of the nozzle cap to prevent foreign substances contained in the cooling water introduced into the discharge port from being injected into the molded product through the nozzle hole; It further comprises.

Hereinafter, a preferred embodiment of the present invention looks at in more detail based on the accompanying drawings.

Figure 4 is an exploded perspective view showing a spray type cooling nozzle for an extruder to which the present invention is applied, Figure 5 is a longitudinal sectional view of Figure 4, Figure 6 is a side cross-sectional view showing a spray type cooling nozzle for an extruder to which the present invention is applied.

Spray type cooling nozzle 100 for the extruder of the present invention is largely divided into the inlet 112 and the outlet 114 by the partition 116, as shown in Figure 4 to 6, the eccentric position of the partition Nozzle body 110 formed with a through-hole 120, a screw cap is coupled to the distal end of the nozzle body to the nozzle cap 130 to form a nozzle hole 132 in the center to spray the coolant and the inside of the outlet and nozzle cap It consists of a filter 140 coupled between the tips.

Thus, before explaining the cooling nozzle of the present invention will be described the configuration and operation of the spray type cooling tank to which the present invention is applied.

The cooling tank 3 of the present invention is for curing the high temperature molded product 6 drawn out from the extruder 2, and has a constant size to accommodate a storage tank for storing cooling water and a molded product drawn out from the extruder. A plurality of enclosures having a closed space of a size and a distribution pipe for radially supplying cooling water from the storage tank to the inside of the enclosure, and coupled to each of the distribution pipes at a predetermined interval to inject the cooling water into the molded product by a constant pressure. Cooling nozzles 100.

The nozzle body 110 of the cooling nozzle 100 is screw-coupled to the distribution pipe is formed integrally with the inlet 112 and the front end of the inlet for the first coolant is introduced, bent in a direction perpendicular to the inlet It consists of an outlet 114. In addition, between the inlet and the outlet, a through hole 120 having a constant diameter eccentrically upwards from the center thereof is formed in a state partitioned by the partition wall 116.

The through-hole eccentric 120 is discharged only to the upper side of the partition wall of the cooling water introduced into the inner side, the foreign matter of mass heavier than the cooling water precipitates on the lower side of the partition wall to filter out the foreign matter primarily.

At this time, the eccentric direction of the upper side in which the through-hole 120 is formed means the upper side related to the injection direction of the nozzle body 110 coupled to the cooling water distribution pipe. In other words, with respect to the cooling nozzles 100 arranged at equal intervals around the molded product 6, the cooling water spraying direction of the cooling nozzles formed on the upper side of the molded product is coupled to be directly downward. It means that the through hole 120 is formed above the center of the partition wall 116 of the main body 110. Therefore, the nozzle body 110 coupled to the molded article 6 at different angles as described above is formed to be eccentrically upward from the center of each partition wall 116 in the coupled state.

In addition, the through hole 120 is narrowed to a portion of the tube through which a certain amount of fluid flows based on Bernoulli's theorem, and the velocity of the fluid in the portion is increased to the outlet 114 using the law of lowering the pressure of the fluid. Increase the speed of the discharged coolant. Therefore, the cooling water flowing from the inlet 112 of the nozzle body 110 to the outlet 114 is realized by the through-hole 120 eccentrically to the upper side to achieve a high speed flow rate to generate a stronger injection force.

The nozzle cap 130 of the cooling nozzle 100 is screwed to the tip of the outlet 114 of the nozzle body 110 to inject the cooling water, and a predetermined nozzle hole 132 is formed in the center thereof. At this time, the nozzle hole 132 is composed of a light-resistant outer narrow narrowing in a cone shape from the inner end of the screw portion coupled to the outlet 114, the inner circumference of the nozzle hole 132 is the inside of the outlet 114 It is formed with a diameter coincident with the circumference.

The filter 140 of the cooling nozzle 100 is to prevent direct injection into the molded product 6 by filtering foreign substances contained in the cooling water, and has a mesh shape having fine holes.

Therefore, according to the cooling nozzle 100 of the present invention made of such a configuration more efficient and improved function is exhibited by the following action.

First, when the coolant flows into the inlet 112 of the nozzle body 110 from the distribution pipe, the flow rate of the coolant flows through the through hole 120 eccentrically upward on the partition wall 116. At this time, the foreign matter heavier than the cold water is filtered by the lower portion of the partition wall 116 by the through-hole 120 eccentric to the upper side.

In addition, the coolant passing through the eccentric through-hole 120 collides with each other at a high speed within the outlet 114 so that a large medley occurs, and thus the circumference of the coolant passes through the through-hole 120. Smooth injection of the coolant through the filter 140 is carried out while filtering foreign matters in a state of preventing foreign matters from accumulating and sticking to the filter 140.

In other words, the filter 140 serves to filter out foreign substances introduced therethrough, thereby allowing the coolant to be discharged, or if the foreign substances accumulate in the filter 140, the jet of the coolant is smoothly ejected through the nozzle hole 132. This will not be done. However, according to the present invention, a strong eddy phenomenon of the coolant is generated by the eccentric through-hole 120 at the inner outlet 114 of the filter 140, thereby preventing the foreign matter from accumulating on the filter 140 and smoothly discharging the coolant. This is done.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is merely exemplary, and those skilled in the art may understand that various modifications and equivalent other embodiments are possible therefrom. will be. Therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

According to the spray type cooling nozzle for the extruder of the present invention as described above, when forming the cooling nozzle installed in the cooling tank to form an eccentric through the upper side from the center of the partition wall so that foreign substances introduced into the interior are filtered by a certain amount by the partition wall. In addition, since the coolant is ejected smoothly with the foreign matter passing through the through hole by the filter, a very useful effect of the reliability of the molded product according to the cooling process is further improved.

Claims (1)

A nozzle cap having a nozzle hole formed at the center thereof so as to inject the coolant into the nozzle body and the nozzle body integrally formed at right angles to the distal end of the nozzle body and the discharge port of the nozzle body to spray the coolant to the outside. In the cooling nozzle of the cooling tank for cooling the molded product drawn out from the compression molding machine, A through hole of a predetermined diameter which is formed on a partition between the inlet and the outlet of the nozzle body and is eccentrically upwardly from the center of the partition in relation to the spraying direction of the combined nozzle body; And A filter coupled between the discharge port and the inner end of the nozzle cap to prevent foreign substances contained in the cooling water introduced into the discharge port from being injected into the molded product through the nozzle hole; Spray type cooling nozzle for extruder, characterized in that further comprises.